Mitochondrial DNA methylation and copy number predict body composition in a young female population

Bordoni, Laura; Smerilli, Vanessa; Nasuti, Cinzia; Gabbianelli, Rosita

doi:10.1186/s12967-019-02150-9

Cited by 30 publications

(29 citation statements)

References 71 publications

(79 reference statements)

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“…Indeed, EGCG-fed mice displayed higher body temperature and mtDNA content in BAT [244]. Of note, not only dietary antioxidants but other nutrients [245] or dietary regimen [246,247], as well as alteration of body composition [65], has shown association with mtDNA copy number, corroborating the hypothesis that diet and health status are strictly linked with the mtDNA function. Conversely, it has been recently demonstrated that alteration of mitochondrial DNA content can modulate antioxidant enzyme expressions and, consequentially, oxidative stress in the cell [248].…”

Section: Antioxidants and Mitochondria: From The General Function To supporting

confidence: 53%

“…Since the efficiency and number of mitochondria can be manipulated by pharmacological and dietary treatments, it has been suggested that mitochondria may be a potential target for preventive medicine by tailoring personalized dietary approaches and supplementations [174]. Moreover, the emerging usage of mtDNA methylation and copy number as biomarkers [64,65,262,263] emphasizes the relevance of studies on mtDNA genomics and epigenomics, and reinforces the need for further investigations of this aspect, particularly with a focus on neurodegenerative disorders. Further research aimed to test the effects of dietary antioxidants on the mitochondrial genome are warranted.…”

Section: Discussionmentioning

confidence: 99%

“…While the correlation between nutrition, oxidative stress, and the nuclear epigenome is well described, to our knowledge, there are no molecular data on the effects of general antioxidants or mitochondria-targeted antioxidants on mtDNA epigenetics as yet. However, a certain responsiveness of the mitochondrial epigenome to external stimuli, including but not limited to dietary elements, has been postulated [65,67,120]. Remarkably, Corsi and colleagues recently demonstrated that mtDNA methylation can change accordingly to the adherence to the Mediterranean diet [250], corroborating the hypothesis of a potential role of nutrition in the modulation of mtDNA methylation.…”

Section: Antioxidants and Mitochondria: From The General Function To mentioning

confidence: 93%

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Mitochondrial DNA and Neurodegeneration: Any Role for Dietary Antioxidants?

Bordoni

Gabbianelli

2020

Antioxidants

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The maintenance of the mitochondrial function is essential in preventing and counteracting neurodegeneration. In particular, mitochondria of neuronal cells play a pivotal role in sustaining the high energetic metabolism of these cells and are especially prone to oxidative damage. Since overproduction of reactive oxygen species (ROS) is involved in the pathogenesis of neurodegeneration, dietary antioxidants have been suggested to counteract the detrimental effects of ROS and to preserve the mitochondrial function, thus slowing the progression and limiting the extent of neuronal cell loss in neurodegenerative disorders. In addition to their role in the redox-system homeostasis, mitochondria are unique organelles in that they contain their own genome (mtDNA), which acts at the interface between environmental exposures and the molecular triggers of neurodegeneration. Indeed, it has been demonstrated that mtDNA (including both genetics and, from recent evidence, epigenetics) might play relevant roles in modulating the risk for neurodegenerative disorders. This mini-review describes the link between the mitochondrial genome and cellular oxidative status, with a particular focus on neurodegeneration; moreover, it provides an overview on potential beneficial effects of antioxidants in preserving mitochondrial functions through the protection of mtDNA.

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Section: Antioxidants and Mitochondria: From The General Function To supporting

confidence: 53%

Section: Discussionmentioning

confidence: 99%

Section: Antioxidants and Mitochondria: From The General Function To mentioning

confidence: 93%

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Mitochondrial DNA and Neurodegeneration: Any Role for Dietary Antioxidants?

Bordoni

Gabbianelli

2020

Antioxidants

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“…MtDNA copy number was assessed as previously described [38] by a qPCR method using primers specific for mtDNA (mtpair21 fw-AATCCAAGCCTACGTTTTCACA; mtpair21 rv-AGTATGAGGAGCGTTATGGAGT) and normalizing for the amount of genomic DNA used in each reaction by using primers specific for gDNA (18s fw-GCAATTATTCCCCATGAACG; 18s-rv GGGACTTAATCAACGCAAGC). The qRT reaction was performed using Takara TB Green™ Premix Ex Taq™ II (Takara) and by using CFX-96 (Biorad).…”

Section: Mtdna Copy Number Evaluationmentioning

confidence: 99%

Extra Virgin Olive Oil and Nigella sativa Oil Produced in Central Italy: A Comparison of the Nutrigenomic Effects of Two Mediterranean Oils in a Low-Grade Inflammation Model

et al. 2019

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Extra virgin olive (EVO) oil and Nigella sativa (NG) oil are two well-known Mediterranean foods whose consumption has been associated with beneficial effects on human health. This study investigates the nutrigenomic properties of two high quality EVO and NG oils in an in vitro model of low-grade inflammation of human macrophages (THP-1 cells). The aim was to assess whether these healthy foods could modulate inflammation through antioxidant and epigenetic mechanisms. When THP-1 cells were co-exposed to both lipopolysaccharides (LPS)-induced inflammation and oils, both EVO and NG oils displayed anti-inflammatory activity. Both oils were able to restore normal expression levels of DNMT3A and HDAC1 (but not DNMT3B), which were altered under inflammatory conditions. Moreover, EVO oil was able to prevent the increase in TET2 expression and reduce global DNA methylation that were measured in inflamed cells. Due to its antioxidant properties, EVO oil was particularly efficient in restoring normal levels of membrane fluidity, which, on the contrary, were reduced in the presence of inflammation. In conclusion, these data support the hypothesis that these Mediterranean oils could play a major role in the modulation of low-grade inflammation and metabolic syndrome prevention. However, NS oil seems to be more efficient in the control of proinflammatory cytokines, whereas EVO oil better helps to counteract redox imbalance. Further studies that elucidate the nutrigenomic properties of local produce might help to promote regional the production and consumption of high-quality food, which could also help the population to maintain and promote health.

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“…Epigenetic alterations (in particular DNA methylation) have been previously reported to play a role in CVD [16,17], gaining increasing interest in view of potential development of new therapeutic approaches [18,19], more efficient tools for early diagnosis [20] and personalized interventions [21]. While epigenetic regulation of nuclear DNA has been widely investigated, a relatively new field of research is represented by mitochondrial epigenetics [22][23][24][25]. Several studies identified variations of methylation levels in different areas of the mitochondrial genome, supporting the hypothesis that, similarly to nuclear epigenetics, mtDNA methylation could affect the expression of mitochondrial genes and mtDNA copy number as well [26][27][28][29][30].…”

Section: Introductionmentioning

confidence: 99%

A Pilot Study on the Effects of l-Carnitine and Trimethylamine-N-Oxide on Platelet Mitochondrial DNA Methylation and CVD Biomarkers in Aged Women

Bordoni

Sawicka

Szarmach

et al. 2020

IJMS

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l-carnitine supplementation has been used for cardiovascular health protection for a long time. Recently, trimethylamine-N-oxide (TMAO), which is an end product of l-carnitine metabolism via the activity of microbiota, has been identified as a cardiovascular disease (CVD) biomarker. The aim of this study was to assess the effect of 6 months of l-carnitine supplementation in a group of aged women engaged in a regular physical training. Platelet mitochondrial DNA methylation, an emerging and innovative biomarker, lipid profile and TMAO levels have been measured. TMAO increased after l-carnitine supplementation (before 344.3 ± 129.8 ng/mL vs. after 2216.8 ± 1869.0 ng/mL; n = 9; paired t-test, p = 0.02). No significant effects on TMAO were exerted by training alone (n = 9) or by l-leucine supplementation (n = 12). TMAO levels after 6 months of l-carnitine supplementation were associated with higher low-density lipoprotein-cholesterol (LDL-c) (Spearman Rho = 0.518, p = 0.003) and total cholesterol (TC) (Spearman Rho = 0.407, p = 0.026) levels. l-carnitine supplementation increased D-loop methylation in platelets (+6.63%; paired t-test, p = 0.005). D-loop methylation was not directly correlated to the TMAO augmentation observed in the supplemented group, but its increase inversely correlated with TC (Pearson coefficient = −0.529, p = 0.029) and LDL-c (Pearson coefficient = −0.439, p = 0.048). This evidence supports the hypothesis that the correlation between l-carnitine, TMAO and atherosclerosis might be more complex than already postulated, and the alteration of mitochondrial DNA (mtDNA) methylation in platelets could be involved in the pathogenesis of this multifactorial disease.

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Mitochondrial DNA methylation and copy number predict body composition in a young female population

Cited by 30 publications

References 71 publications

Mitochondrial DNA and Neurodegeneration: Any Role for Dietary Antioxidants?

Mitochondrial DNA and Neurodegeneration: Any Role for Dietary Antioxidants?

Extra Virgin Olive Oil and Nigella sativa Oil Produced in Central Italy: A Comparison of the Nutrigenomic Effects of Two Mediterranean Oils in a Low-Grade Inflammation Model

A Pilot Study on the Effects of l-Carnitine and Trimethylamine-N-Oxide on Platelet Mitochondrial DNA Methylation and CVD Biomarkers in Aged Women

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